US2493770A - manning - Google Patents

Description

Jan. 10, 1950 c. s. MANNING I SIMULATED PANORAMA VIEWER Filed Jan. 25, 1946 IN VEN TOR. CHARLES S. MANNING 9 BY W ATTORNEY a remote station to move Patented Jan. 10, 1950 UNITED Parent orricr.

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(Granted under the: act of March 3; 3.0, 1928:; .316 Qt amended" April This invention relates to means for simulating the view from an aircraft observers station of a projected scene: and more particularly to means for varying the location, size and visibility of the area viewed.

'In the trainingof navalpersonnel, it has been round advantageous toproject ona screen the images of shipsindependently controlled fro on true courses at correct speeds. It is desirable with such training equipment to obtain a restricted view of screen to simulate-that seen from a scouting airplane. It isessential that this field of view move across the screen alonga desired path-ingresponse to remote control. The area of view should also increase with an increase in "the simulated altitude of the plane. To enhance the realism further, the visibility should be reduceable in accordance with the adverse weather conditions. to; be reproduced,v such as fog. clouds, etc.

It is known theoptical art. to.- provide devices which permit the viewing of a selected area only, such as a camera view finder. However, the: present invention deals with. a viewing apparatus which has many features not found-"in: a conventional view finder and which is used. for a difierentpurpose with diiferent results.

object of this invention istoprovide simple and easily operable means for moving an area of visibility about a viewscreen in accordance with the course and speed or an imaginary :p l'ane.

Another object is ing' the size of the area with the apparent height of the plane from which the view is simulated.

A further object is to prov-'d'e means for varying the visibility inaccordance with the weather conditions to be imitatedsuch as fog, clouds, etc. The invention also resides in features ofconstruction, combination, and arrangement herein described or disclosed, whereby simple and easily operable means are provided for varying the location, size and visibility of a desired field of view.

While the invention is susceptible oi various modifications and alternative constructions, I have shown in the drawings and will herein describe the preferred embodiment. It is to be understood, however, that I :do not intend to limit the invention by such disclosures for I aim to cover all modifications and alternative constructions falling within the spirit and scope of the invention as defined in the appended claims.

to provide means for varyviewed in accordance v 23,. use, serials. 6 2.951

In the drawings:

Fig. 1 is an isometric drawing of the viewing tWbe'.

Fig; 2 is a-schematic arrangement.

Fig. 3 is a l-iorizontal section on line 3-3 Fig.

'Fi'g. 1- shows a viewing tube H1 mounted at the viewing end on a universal support consisting of gimbals 'H' which are suspended in a fixed vertical element 1%. The central or 'medeal portion of the tube is mounted in gimbals [2 which aresuspended in bracket M on vertically moving saddle 15 of arr-adjustable rest. Ball and socket means could of course be substituted for either or-bothsets of gimbals, but an attribute of the latter is that they "provide an immediate and circumannular' support for the viewing tube with a high degree of stability-therefor;

A vertical movement is provided by attachment of saddle lfito' threadedmember l6 which rides on rails H and is actuated by screw 1-8 which driven by servomotor 1 9'; Power is supplied to the motorfrom asuita-ble source through leads and controlis, afforded byleads 21; which are connected to a su'table remotecontroldevice.

Horizontal movement is provided by attachment of endiblock 22' and saddle 2% to threaded member- 24" which rides on rails 25 and is actuated by screw 26 which is: driven by servomotor '21. Leads 28 go to a suitable source of current and" loads 29 are connected to a remote control device, The. vertical and horizontal movement drives are mot; ted on base 30', the operation f the drivesbei gto adjust the rest in two major directions in the plane transverse of the iew g W An. adjustable iris 31' is located in the outer end of the tube. The. opening is decreased .or

* lbIe drive from servomotortl' which is connected Dyjll hdS-SS toa power source and by leads .36 to a suitable remote control device.

A wheel 35a carrying indicia disks 36 which stimulate various visibility conditions such as fog, clouds, etc. is rotatively mounted on arm 31 at the end of the tube. Turning the wheel sufficiently far registers the desired disk 36 with the viewing tube.

Fig. 2 shows the restricted view obtained through the tube of a screen 38 on which a view is projected. The tube is located a substantial distance from the screen in order to reduce any errors caused by the varying angle of the tube. The view is restricted by iris 3| and circular eyepiece 39. Suitable lenses may be used in the eyenated with the simulated rate of climb of the plane. As altitude increases, the area of view is increased by an increase in the iris opening.

The wheel 35 may be rotated to bring one of the disks in line with the tube opening to stimu late a desired condition of visibility. The invention described herein may be manufactured and used by or for the Government of the United States of America for governmental purposes without the payment of any royalties thereon or therefor.

I claim:

1. A viewing device for use with a projected scene, comprisinga tube having a single eyepiece at one end, a gimbal support providing a universal mounting for the eyepiece end of the tube, a laterally extending arm at the other end of the tube, a gimbal mounting for the tube medially of said support and said other end of the tube providing for angular motion of the tube in reference to said support, a member turnably mounted on said arm having indicia disks registrable with said other end of the tube for interposing a chosen indicia eiTect between the eyepiece and said scene, means for moving said gimbal mounting horizontally and vertically to produce the angular motion of said tube, and an iris diaphragm in the tube behind said member for restricting the view of the scene.

2. A viewing device for observing a projected scene and simulating varying conditions of size,

visibility and location of the area viewed comvertically to provide angular motion to the other end of said tube, a plurality of indicia disks rotatably mounted on said other end of the tube and registrable therewith for interposing said disks between the eyepiece and said scene, and

means varies the size of the area viewed.

3. A viewing device for observing a projected scene and simulating varying conditions of size, visibility and location of the area viewed comprising a tube having an eyepiece at one end, universal mountings at the eyepiece end and medially of the other end of said tube, said medial mounting consisting of a plurality of motor driven screws positioned normal to each other to provide angular motion to the other end of said tube, a, plurality of indicia disks rotatably mounted on said other end of the tube and registrable therewith for interposing said disks between the eyepiece and said scene, and adjustable means within said tube between said eyepiece and said indicia disks whereby said angular motion varies 'the location and said indicia disks vary the visibility and said adjustable means varies the size of the area viewed.

The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 563,303 Oehring July 7, 1896 1,093,639 McDougall Apr. 21, 1914 1,201,813 Fitzwilliam Oct. 17, 1916 1,313,262 Compere Aug. 19, 1919 1,469,893 Clapp Oct. 9, 1923 1,761,361 Oberg et al June 3, 1930 1,939,597 Merrill Dec. 12, 1933 2,089,901 Kollmayer Aug. 10, 1937 2,105,008 Riley Jan. 11, 1938 2,374,991 Gordon May 1, 1945 2,388,858 Mac Neille et al. Nov. 13, 1945 2,389,155 Kerry Nov. 20, 1945 2,392,781 Simjian Jan. 8, 1946 2,402,786 Stearns et al June 25, 1946 2,406,550 Long Aug. 27, 1946 2,410,725 Franklin Nov. 5, 1946 2,424,011 Gramont July 15, 1947

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